PAM2307 Datasheet, PDF(9/13 Page) Power Analog Micoelectronics

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PAM2307 Datasheet, PDF (9/13 Pages) Power Analog Micoelectronics – 3A Low Noise Step-Down DC-DC Converter

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PAM2307

3A Low Noise Step-Down DC-DC Converter

Application Information

The basic PAM2307 application circuit is shown

in Page 1. External component selection is

determined by the load requirement, selecting L

first and then Cin and Cout.

Inductor Selection

For most applications, the value of the inductor

will fall in the range of 1ÂµH to 2.7ÂµH. Its value is

chosen based on the desired ripple current and

efficiency. Large value inductors lower ripple

current and small value inductors result in higher

ripple currents. Higher V IN or Vout also increases

the ripple current as shown in equation 3A

reasonable starting point for setting ripple

current is â³IL = 1.2A (40% of 3A).

DIL

)(L

) V OUT

ï¦ ï§ ï¨1-

VO UT

VIN

ï¶

ï· ï¸

(1)

The DC current rating of the inductor should be

at least equal to the maximum load current plus

half the ripple current to prevent core saturation.

Thus, a 4.2A rated inductor should be enough for

most applications (3A + 1.2A). For better

efficiency, choose a low DC-resis tance inductor.

Vo 1.2V 1.5V 1.8V 2.5V 3.3V

L 1.2ÂµH 1.5ÂµH 2.2ÂµH 2.2ÂµH 2.2ÂµH

CIN and COUT Selection

In continuous mode, the source current of the top

MOSFET is a square wave of duty cycle

Vout/Vin. To prevent large voltage transients, a

low ESR input capacitor sized for the maximum

RMS current must be used. The maximum RMS

capacitor current is given by:

( )1

CIN required IRMS @ IOMAX ï©ï«VOUT VIN - VOUT ï¹ï»2

VIN

This formula has a maximum at V IN =2Vout,

wh ere I RMS=I OUT/ 2. This sim ple w orst-case

condition is commonly used for design because

even significant deviations do not offer much

relief. Note that the capacitor manufacturer's

ripple current ratings are often based on 2000

hours of life. This makes it advisable to further

derate the capacitor, or choose a capacitor rated

at a higher temperature than required. Consult

the manufacturer if there is any question.

The selection of Cout is driven by the required

effective series resistance (ESR).

Typically, once the ESR requirement for Cout

has been met, the RMS current rating generally

far exceeds the I RIPP (LE P-P) requirement. The

output ripple â³Vout is determined by:

â³Voutââ³IL(ESR+1/8fCout)

Where f = operating frequency, C = OUT output

capacitance and ÎI L = ripple current in the

inductor. For a fixed output voltage, the output

ripple is highest at maximum input voltage since

ÎIL increases with input voltage.

Using Ceramic Input and Output Capacitors

Higher values, lower cost ceramic capacitors are

now becoming available in smaller case sizes.

Their high ripple current, high voltage rating and

low ESR make them ideal for switching regulator

applications. Using ceramic capacitors can

achieve very low output ripple and small circuit

size.

When choosing the input and output ceramic

capacitors, choose the X5R or X7R dielectric

formul ations. These dielectrics have the best

temperature and voltage characteristics of all

the ceramics for a given value and size.

Thermal consideration

Thermal protection limits power dissipation in

the PAM2307. When the junction temperature

exceeds 150Â°C, the OTP (Over Temperature

Protection) starts the thermal shutdown and

turns the pass transistor off. The pass transistor

resumes operation after the junction

temperature drops below 120Â°C.

For continuous operation, the junction

temperature should be maintained below 125Â°C.

The power dissipation is defined as:

( ) ( ) PD =IO2

VORDSONH +

VIN -VO

VIN

RDSONL +

tSWFSIO +IQ

VIN

IQ is the step-down converter quiescent current.

The term tsw is used to estimate the full load

step-down converter switching losses.

Power Analog Microelectronics, Inc

www.poweranalog.com

03/2011 Rev2.1

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